User wearable portable communication device for collection and transmission of physiological data

ABSTRACT

A user wearable portable communication device and a method for collecting and transmitting a plurality of physiological parameters to a remote monitoring center are disclosed. The portable communication device includes a provision for enabling the user to establish a video conference, a fail detection module in conjunction with an accelerometer recognizes a placement of the portable communication device, a home automation module for enabling the user to remotely operate multiple electronic devices, an acknowledgment acceptance module for receiving the acknowledgment, a physiological data, collecting module communicatively coupled to a fetal doppler module for monitoring and transmitting the physiological parameters associated with a child, multiple preprogrammed contact numbers for enabling the user to establish a communication, a subscriber identity module for enabling the user establish a communication and data transmission between the portable communication device and the remote monitoring center.

CROSS REFERENCE OF RELATED APPLICATION

This is a Continuation-In-Part application of a non-provisionalapplication having an application Ser. No. 12/722,554 and a filing dateof Mar. 12,2010.

Technical Field of the Invention

The present invention generally relates to a user wearable portablecommunication device. More particularly the present invention is relatedto a user wearable portable communication device for collecting andtransmitting physiological parameters to a remote monitoring center.

BACKGROUND OF THE INVENTION

Generally, the number of users requiring the remote health care isincreasing in the past few years. The remote health care systems use avariety of health care devices to continuously monitor the user in anon-invasive manner. But these types of health care devices are notportable and restricted to one geographical area.

Emergency health crises that require immediate attention have been adifficult problem to address regardless of the age of the personencountering a medical emergency situation. Conventionally, the panicbutton type devices interlink the user to the emergency response teamvia landline or mobile telephone. If the user is suddenly disabledduring a sudden health crisis, such as in a heart attack or a seriousfall situation, the panic-button type devices become useless. Furthermore if the person is able to press the button the person should bewithin the effective wireless transmission distance to the device thatdials the telephone to report the emergency. The panic button typedevices are not effective for the users when the users are inunconscious state or rendered incapacitated by a fall or other medicalcondition. Furthermore no vital information on the user's status likeheart rate, blood pressure, breath rate, body temperature, oxygen leveland the like will be transmitted to the response team to provide furthermedical assistance. Consequently, it is difficult for the response teamto diagnose and provide treatment to the user.

Typically, the health monitoring systems should have an adjustableemergency alert level throughout a day for different levels of activity.The capacity to determine the location of the person, who requiresimmediate medical assistance, should be more effective, accurate andrelevant to provide proper medical assistance. The global positioningsystems (GPS) determine the location of the user when signals frommultiple GPS satellites are received by the system. The GPS system failsto determine the location of the user when signals are not receivedfrom, more than one satellite due to shielding by buildings orgeographic features or improper antenna orientation. The conventionalGPS tracking systems comprises multiple integrated circuit chips.Consequently the multiple integrated circuit chips consume more powercompared to the single integrated circuit chips with the combinedcapabilities of the individual integrated circuit chips. Furthermore theconventional GPS receivers can determine the location of the user onlywhen there is clear view of the sky within several feet of the GPSreceiver's antenna.

Typically, many health care facilities perform the vital sign monitoringof the user only once in a week due to the time and money needed toperform these operations. If the user's vital signs are checked onlyonce hi a week, the declining health condition of the user is detectedafter the health condition is worsened. Furthermore this is eliminatingthe opportunity for early intervention. The user's physiologicalparameters such as pulse rate, heart beat rate, electrocardiogram (EKG),blood pressure, breathing rate, body temperature and the like should bemeasured and monitored continuously. Further the measured parameters andthe location of the user should be transmitted to the central monitoringsystem to continuously monitor the physiological parameters of the userwhile simultaneously tracking the location of the user.

In light of the aforementioned limitations, there clearly exists a needfor user wearable portable communication device for monitoring,receiving and analyzing the physiological parameters related to the userfor providing remote health care services by communicating with a remotehealth care monitoring center through a communication network byreceiving the location of the user through the communication network forproviding emergency medical services.

BRIEF SUMMARY OF THE INVENTION

The following presents a simplified summary of the disclosure in orderto provide a basic understanding to the reader. This summary is not asextensive overview of the disclosure and it does not identitykey/critical dements of the invention or delineate the scope of theinvention. Its sole purpose is to present some concepts disclosed hereinin a simplified form as a prelude to the more detailed description thatis presented later.

In accordance with teachings of the present disclosure, a user wearableportable communication device and a method for collecting andtransmitting a plurality of physiological parameters to a remotemonitoring center are disclosed.

In accordance with teachings of the present disclosure, the presentinvention describes about a user wearable portable communication devicefor receiving a plurality of physiological parameters from a pluralityof physiological data collecting devices.

Further purpose of the present invention is to transmit the plurality ofphysiological parameters from the user wearable portable communicationdevice to a remote monitoring center for providing a remote health careservices.

Another objective of the present invention is to enable a communicationbetween an expectant and the remote monitoring center for monitoring andtransmitting the physiological parameters associated with a child byutilizing a fetal doppler module.

Still another objective of the present invention is to track a currentlocation of a user by utilizing a global positioning systemcommunication network.

Other objective of the present invention, the portable communicationdevice facilitates the user to remotely operate a plurality ofelectronic devices by utilizing a home automation module.

Further objective of the present invention, the portable communicationdevice receives an acknowledgement of a plurality of reminders forpreventing the repetition of the alarms,

Still farther objective of the present invention is to facilitate theuser to establish a video conference with the multiple health careproviders present over the remote monitoring center. Still anotherobjective of the present invention is to provide a plurality ofpreprogrammed contact number for facilitating the communication betweenthe portable communication device and the remote monitoring centerthrough a plurality of user controllable switches.

Further objective of the present invention is to recognize a placementof the portable communication device by a fall detection moduleoperating in conjunction with the accelerometer.

Still further objective of the present invention, the user wearableportable communication device utilizes a short range communication forcollecting data from the plurality of physiological devices and utilizesa long range communication for transmitting the collected data to theremote monitoring center.

Another purpose of the present invention provide emergency medicalattention to the user by continuously monitoring the plurality ofphysiological parameters.

A user wearable portable communication device and a method forcollecting and transmitting a plurality of physiological parameters to aremote monitoring center are disclosed. According to a first aspect ofthe present invention, the user wearable portable communication deviceincludes at least one provision for enabling the user to establish avideo conference with the plurality of health care providers presentover the remote monitoring center. The communication with the remotemonitoring center enabled through a communication network includes atleast one of a global system for mobile communications, a general packetradio service, a wifi network. The at least one provision for enablingthe user to establish a video conference with the plurality of healthcare providers includes at least one of a webcam, a video camera and thelike.

According to the first aspect of the present invention, the userwearable portable communication device includes at least one falldetection module in conjunction with an accelerometer recognizes aplacement of the portable communication device.

According to the first aspect of the present invention, the userwearable portable communication device includes at least one homeautomation module for enabling the user to remotely operate a pluralityof electronic devices.

According to the first aspect of the present invention, the userwearable portable communication device includes at least oneacknowledgment acceptance module for receiving the acknowledgmentcorresponding to a plurality of medical reminders.

According to the first aspect of the present invention, the userwearable portable communication device includes at least onephysiological data collecting module communicatively coupled to at leastone fetal doppler module for monitoring and transmitting thephysiological parameters associated with a child to the plurality ofhealth care providers present over the remote monitoring center. The atleast one physiological data collecting module receives thephysiological parameters over a short range communication networkemploying a set of communication protocols from a plurality of pluralityof physiological data collecting devices. The set of communicationprotocols include at least one of a transmission controlprotocol/internet protocol, a hyper text transfer protocol and the like.The short range communication network includes at least one of abluetooth network, a zigbee network and the like.

According to the first aspect of the present invention, the userwearable portable communication device includes a plurality ofpreprogrammed contact numbers for enabling the user to establish acommunication with the plurality of health care providers.

According to the first aspect of the present invention, the userwearable portable communication device includes at least one subscriberidentity module for enabling the user perform at least one of a step ofestablishing a communication between the portable communication deviceand the remote monitoring center, a step of data transmission betweenthe portable communication device and the remote monitoring center andthe like.

According to the first aspect of the present invention, the userwearable portable communication device further includes a locationtracking module for tracking a current location of the user through atleast one of an assisted global positioning system, a global positioningsystem and the like.

According to the first aspect of the present invention, the userwearable portable communication device further includes a universalserial bus provision for receiving the physiological parameters from theplurality of physiological data collecting devices.

According to a second aspect of the present invention, a method adaptedfor collecting and transmitting a plurality of physiological parametersfrom a user wearable portable communication device to a remotemonitoring center is disclosed. The method adapted for collecting andtransmitting a plurality of physiological parameters from a userwearable portable communication device to a remote monitoring centerincludes facilitating a video conference between a user and a pluralityof health care providers present over the remote monitoring center byusing at least one provision.

According to the second aspect of the present invention, the methodadapted for collecting and transmitting a plurality of physiologicalparameters from a user wearable portable communication device to aremote monitoring center includes detecting a placement of the portablecommunication device by using at least one fall detection module inconjunction with an accelerometer.

According to the second aspect of the present invention, the methodadapted for collecting and transmitting a plurality of physiologicalparameters from a user wearable portable communication, device to aremote monitoring center includes remotely operating a plurality ofelectronic devices by using at least one home automation module.

According to the second aspect of the present invention, the methodadapted for collecting and transmitting a plurality of physiologicalparameters from, a user wearable portable communication device to aremote monitoring center includes receiving the acknowledgment of theplurality of medical reminders by using at least one acknowledgmentacceptance module.

According to the second aspect of the present invention, the methodadapted for collecting and transmitting a plurality of physiologicalparameters from a user wearable portable communication device to aremote monitoring center includes monitoring and transmitting thephysiological parameters associated with a child to the plurality ofhealth care providers present over the remote monitoring center byutilizing at least one physiological data collecting modulecommunicatively coupled to at least one fetal doppler module.

According to the second aspect of the present invention, the methodadapted for collecting and transmitting a plurality of physiologicalparameters from a user wearable portable communication device to aremote monitoring center includes enabling the user to establish acommunication with the plurality of health care providers by utilizing aplurality of preprogrammed contact numbers. The plurality ofphysiological parameters from the plurality of physiological datacollecting devices of the user collected through a short rangecommunication, The plurality of preprogrammed contact numbers enablesthe user to establish a communication with the plurality of health careproviders present over the remote monitoring center.

According to the second aspect of the present invention, the methodadapted for collecting and transmitting a plurality of physiologicalparameters from a user wearable portable communication device to aremote monitoring center includes establishing a communication betweenthe portable communication device and the remote monitoring centerthrough, at least one subscriber identity module for enabling at leastone of a voice based communication, a data transmission and the like.

According to the second aspect of the present invention, die methodadapted for collecting and transmitting a plurality of physiologicalparameters from a user wearable portable communication device to aremote monitoring center further includes employing a set ofcommunication protocols for enabling a communication between theplurality of physiological data collecting devices and the portablecommunication device.

BRIEF DESCRIPTION OF THE DRAWINGS

Other objects and advantages of the present invention will becomeapparent to those skilled in the art upon reading the following detaileddescription of the preferred embodiments, in conjunction with feeaccompanying drawings, wherein like reference numerals have been used todesignate like elements, and wherein:

FIG. 1a is a diagram depicting a user wearable portable communicationdevice with a keypad.

FIG., 1 b is a diagram depicting a user wearable portable communicationdevice without a keypad.

FIG. 2 is a diagram, depicting an overview of a communication between auser wearable portable communication device and a remote monitoringcenter.

FIG. 3 is a flow diagram illustrating a method of communication betweena user wearable portable communication device and a remote health caremonitoring center.

FIG. 4 is a diagram depleting an overview of multiple applicationsassociated with a user wearable portable communication device.

DETAILED DESCRIPTION OF THE INVENTION

It is to be understood that the present disclosure is not limited is itsapplication to the details of construction and the arrangement ofcomponents set forth in the following description or illustrated In thedrawings. The present disclosure is capable of other embodiments and ofbeing practiced or of being carried out in various ways. Also, it is tobe understood that the phraseology and terminology used herein is forthe purpose of description and should not be regarded as limiting.

The use of “including”, “comprising” or “having” and variations thereofherein is meant to encompass the items listed thereafter and equivalentsthereof as well as additional items. The terms “a” and “an” herein donot denote a limitation of quantity, but rather denote the presence ofat least one of the referenced item. Further, the use of terms “first”,“second”, and “third”, and the like, herein do not denote any order,quantity, or importance, but rather are used to distinguish one elementfrom another.

Exemplary embodiments of the present invention are directed towards Auser wearable portable communication device and a method for collectingand transmitting a plurality of physiological parameters to a remotemonitoring center are disclosed. According to die first aspect of apresent invention, the user wearable portable communication deviceincludes at least one provision for enabling the user to establish avideo conference with the plurality of health care providers presentover the remote monitoring center. The communication, with die remotemonitoring center enabled, through a communication network includes atleast one of a global system for mobile communications, a general packetradio service, a will network. The at least one provision tor enablingthe user to establish a video conference with the plurality of healthcare providers includes at least one of a webcam, a video camera and thelike.

According to the first aspect of the present invention, the userwearable portable communication device includes at least one felldetection module in conjunction with an accelerometer recognizes aplacement of the portable communication device.

According to the first aspect of the present invention, the userwearable portable communication device includes at least one homeautomation module for enabling the user to remotely operate a pluralityof electronic devices.

According to the first aspect of the present invention, the userwearable portable communication device includes at least oneacknowledgment acceptance module for receiving the acknowledgmentcorresponding to a plurality of medical reminders.

According to the first aspect of the present invention, the userwearable portable communication device includes at least onephysiological data collecting module communicatively coupled to at leastone fetal doppler module for monitoring and transmitting thephysiological parameters associated with a child to the plurality ofhealth cars providers present over the remote monitoring center. The atleast one physiological data collecting module receives thephysiological parameters over a short range communication networkemploying a set of communication protocols from a plurality of pluralityof physiological data, collecting devices. The set of communicationprotocols include at least one of a transmission controlprotocol/internet protocol, a hyper text transfer protocol and the like.The short range communication network includes at least one of abluetooth network, a zigbee network and the like.

According to the first aspect of the present invention, the userwearable portable communication device includes a plurality ofpreprogrammed contact numbers for enabling the user to establish acommunication with the plurality of health care providers.

According to the first aspect of the present invention, the userwearable portable communication device includes at least one subscriberidentity module for enabling the user perform at. least one of a step ofestablishing a communication between the portable communication deviceand the remote monitoring center, a step of data transmission betweenthe portable communication device and the remote monitoring center andthe like.

According to the first aspect of the present invention, the userwearable portable communication device further includes a locationtracking module for tracking a current location of the user through atleast one of an assisted global positioning system, a global positioningsystem and the like.

According to the first aspect of the present invention, the userwearable portable communication device further includes a universalserial bus provision for receiving the physiological parameters from theplurality of physiological data collecting devices.

According to a second aspect of the present invention, a method adaptedfor collecting and transmitting a plurality of physiological parametersfrom a user wearable portable communication device to a remotemonitoring center is disclosed. The method adapted for collecting andtransmitting a plurality of physiological parameters from a userwearable portable communication device to a remote monitoring centerincludes facilitating a video conference between a user and a pluralityof health care providers present over the remote monitoring center byusing at least one provision.

According to the second aspect of the present invention, the methodadapted for collecting and transmitting a plurality of physiologicalparameters from a user wearable portable communication device to aremote monitoring center includes detecting a placement of the portablecommunication device by using at least one fail detection module inconjunction with an accelerometer.

According to the second aspect of the present invention, the methodadapted for collecting and transmitting a plurality of physiologicalparameters from a user wearable portable communication device to aremote monitoring center includes remotely operating a plurality ofelectronic devices by using at least one home automation module.

According to the second aspect of the present invention, the methodadapted for collecting and transmitting a plurality of physiologicalparameters from a user wearable portable communication device to aremote monitoring center includes receiving the acknowledgment of theplurality of medical reminders by using at least one acknowledgmentacceptance module.

According to the second aspect of the present invention, the methodadapted for collecting and transmitting a plurality of physiologicalparameters from a user wearable portable communication device to aremote monitoring center includes monitoring and transmitting thephysiological parameters associated with a child, to the plurality ofhealth care providers present over the remote monitoring center byutilizing at least one physiological data collecting modulecommunicatively coupled to at least one fetal doppler module.

According to the second aspect of the present invention, the methodadapted for collecting and transmitting a plurality of physiologicalparameters from a user wearable portable communication device to aremote monitoring center includes enabling the user to establish acommunication with the plurality of health care providers by utilizing aplurality of preprogrammed contact numbers. The plurality ofphysiological parameters from the plurality of physiological datacollecting devices of the user collected through a short rangecommunication. The plurality of preprogrammed contact numbers enablesthe user to establish a communication with the plurality of health careproviders present over the remote monitoring center.

According to the second aspect of the present invention, the methodadapted for collecting and transmitting a plurality of physiologicalparameters from a user wearable portable communication device to aremote monitoring center includes establishing a communication betweenthe portable communication device and the remote monitoring centerthrough at least one subscriber identity module for enabling at leastone of a voice based communication, a data transmission and the like.

According to the second aspect of the present invention, the methodadapted for collecting and transmitting a plurality of physiologicalparameters from a user wearable portable communication device to aremote monitoring center further includes employing a set ofcommunication protocols for enabling a communication between theplurality of physiological data collecting devices and the portablecommunication device.

Referring to FIG, la is a diagram 100 a depicting a user wearableportable communication device with keypad. According to an exemplaryembodiment of the present invention, the user wearable portablecommunication device includes a main housing 102 a, a first strap 104 a,a second strap 106 a, a keypad 108 a, a physiological parameter display110 a, a time display 112 a, a date display 114 a, multiple usercontrollable switches 116 a, a universal serial bus provision 118 a, amicrophone 120 a, a provision for video conference 122 a and a holedprovision 124 a to use the wearable portable communication device as apendent

In accordance with an exemplary embodiment of the present invention, themain housing 102 a of the user wearable portable communication deviceincludes a keypad 108 a for facilitating the user to establish acommunication by dialing the plurality of numbers present on the keypad,The communication is enabled by a subscriber identity module (SIM)present in the portable communication device. The microphone 120 apositioned on the main housing 102 a of the portable communicationdevice facilitates the voice based communication. The main housing 102 afurther includes physiological parameter display 110 a for displayingthe multiple physiological parameters of the user received from themultiple physiological data collecting devices. The multiplephysiological parameters of the user includes a heart rate, a pulserate, a body temperature, a body fat and weight, a Hood sugar, a breathrate, other medical data and the like. The multiple physiological datacollecting devices includes a chest belt, a blood pressure monitor, abody fat and weight scale, a blood sugar monitor and the like.

According to an exemplary embodiment of the present invention, the firststrap 104 a is attached to the first end of the main housing 102 a andthe second strap 106 a is attached to the second end of the main housing102 a. The main housing 102 a includes the time display 112 a fordisplaying the time and the date display 114 a for displaying the date.The display module simultaneously displays the measured physiologicalparameters, time and date. The display module Is an organic lightemitting diode (OLED) made with organic material for displaying the dataaccording to a non limiting exemplary embodiment of the presentinvention. The main housing 102 a includes a universal serial, busprovision 118 a for receiving the physiological parameters from themultiple physiological data collecting devices. Further thephysiological parameters from the multiple physiological data collectingdevices arc transmitted to the portable communication device through ashort, range communication network. The short range communicationnetwork preferably includes but not limited to a blue tooth network, azigbee network and the like.

In accordance with as exemplary embodiment of the present invention, thereceived physiological parameters are further transmitted from theportable communication device to the remote monitoring center through along range communication network. The long range communication, networkpreferably includes but not limited to a global system for mobilecommunications (GSM), a general packet radio service (GPRS), a willnetwork and the like. The global system for mobile communications (GSM)further Includes dual band and quad band for supporting multiplefrequencies of data transmission. The portable communication devicefurther utilizes a global positioning system (GPS) for tracking acurrent location of the user. By tracking the current location of theuser, the multiple health care providers present over remote monitoringcenter provides an emergency medical assistance to the user.

According to an exemplary embodiment of the present invention, the mainhousing 102 a former includes the multiple user controllable switches116 a for enabling the user to establish a voice based communicativeinteraction with the multiple health care providers present over theremote monitoring center. The multiple user controllable switches 116 aenable the user to establish the communication by utilizing multiplepreprogrammed contact numbers stored in the portable communicationdevice along with the microphone 120 a. A holed provision 124 a fastenedto the main housing allows the user to wear the portable communicationdevice as a pendent. The provision 122 a for video enables the users toestablish a video conference with the multiple health care providerspresent over the remote monitoring center. The provision 122 a for videoincludes multiple embodiments preferably Including but not limited to aweb cam, a video camera, a digital camera and the like. Further theportable communication device enables the user remotely operate themultiple electronic devices by utilizing a home automation module,

Referring to FIG. lb is a diagram 100 b depicting a user wearableportable communication device without a keypad. The portablecommunication device includes a main housing 102 b, a first strap 104 b,a second strap 106 b, a physiological parameter display 110 b, a timedisplay 112 b, a date display 114 b, multiple user controllable switches116 b, a universal serial bus provision 118 b, a microphone 120 b, aprovision for video conference 122 b and a holed provision. 124 b to usethe wearable portable communication device serving as a pendent,

In accordance with an exemplary embodiment of the present invention, themain housing 102 b includes the physiological parameter display 110 bfor displaying the multiple physiological parameters received from themultiple physiological data collecting devices. The multiplephysiological parameters of the user includes a heart rate, a pulserate, a body temperature, a body fat and weight, a blood sugar, a breathrate, other medical data and the like. The multiple physiological datacollecting devices includes a chest belt, a blood pressure monitor, abody fat and weight scale, a blood sugar monitor and the like. The timedisplay 112 b displays the time and the date display 114 b displays thedate.

According to an exemplary embodiment of the present invention, themultiple user controllable switches 116 b enables the user to establisha voice based communication with the multiple health care providerspresent over the remote monitoring center by utilizing multiplepreprogrammed contact numbers. The user is facilitated with the videoconference by utilizing a provision 122 b and the holed provision 124 bpositioned above the provision 122 b for video enables the user to wearthe portable communication device as a pendent in accordance with anexemplary embodiment of the present invention.

In accordance with an exemplary embodiment of the present invention, thefirst strap 104 b is attached to the first end of the main housing 102 band the second strap 106 b is attached to the second end of the mainhousing 102 b. The first strap 104 b and the second strap 106 b enablethe user to tie the portable communication device to the wrist of theuser. The multiple user controllable switches 116 b enable the user toestablish a voice based communicative interaction with the multiplehealth care providers present over the remote monitoring center. Themultiple user controllable switches 116 b enable the user to establishthe communication by utilizing multiple preprogrammed contact numbersstored in the portable communication device and the universal serial busprovision 118 b of the portable communication device receives themultiple physiological parameters from the multiple physiological datacollecting devices.

Referring to FIG. 2 is a diagram 200 depicting an overview of acommunication between a user wearable portable communication device anda remote monitoring center. According to an exemplary embodiment of thepresent invention, the overview of the communication between the userwearable portable communication device and the remote monitoring centerdepicts multiple physiological parameters preferably including but notlimited to a body temperature 202 a, a heart rate 202 b, a pulse rate202 c, a blood, pressure 202 d, a body fat and weight 202 e, a bloodsugar 202 f, a fetal doppler 202 g, a breath rate 202 h and othermedical data 2021 received from the multiple physiological datacollecting devices of the user, a short range communication network 204,a user wearable portable communication device 206, a long rangecommunication network 208, a secure data bank 210 and a remotemonitoring center 212.

According to an exemplary embodiment of the present invention, themultiple physiological parameters preferably including but not limitedto the body temperature 202 a, the heart rate 202 b, the pulse rate 202c, the blood pressure 202 d, the body fat and weight 202 e, the bloodsugar 202 f, the fetal doppler 202 g, the breath rate 202 h and theother medical data 202 i is received from the multiple physiologicaldata collecting devices including a chest belt, a blood pressuremonitor, a body fat and weight scale, a blood sugar monitor and thelike. The multiple physiological parameters are received by die portablecommunication device by utilizing a short range communication network204. The short range communication network preferably includes but notlimited to a bluetooth network, a zigbee network and the like. Theportable communication device receives the multiple physiologicalparameters from the multiple physiological data collecting devicesduring predefined regular intervals. In emergency situations theportable communication device facilitates the user to establish acommunication with multiple health care providers present over theremote monitoring center by dialing the multiple preprogrammed contactnumber stored in the portable communication device by utilizing themultiple user controllable switches. Further the user is alsofacilitated with, a provision to establish a video conference with themultiple health care providers present over the remote monitoringcenter. The portable communication device communicatively coupled withthe fetal doppler for monitoring the physiological parameters of thechild and transfers the monitored parameters to the remote monitoringcenter.

In accordance with an exemplary embodiment of the present invention,after receiving the multiple physiological parameters from the multiplephysiological data collecting devices by utilizing the short rangecommunication network, the portable communication device furthertransmits the collected physiological parameters to the remotemonitoring station 212 through the long range communication network 208for storing the multiple physiological parameters in the secure databank 210. The long range communication network preferably includes butnot limited to a global system for mobile communications (GSM), ageneral packet radio service (GPRS), a will network and the like. Theportable communication device 206 further utilizes the globalpositioning system (GSM) for tracking the current location of the user.

According to an exemplary embodiment of the present invention, themultiple health care providers present over the remote monitoring center212 receives the data transmitted by the portable communication device206, stores the data in the secure databank, analyzes the received dataand transmits the feed, back to the portable communication device of theuser. Depending upon the data received from the portable communicationdevice 206, the multiple health care providers present over the remotemonitoring center provides the assistance to the user.

Referring to FIG. 3 is a flow diagram 300 illustrating a method ofcommunication between a user wearable portable communication device anda remote monitoring center. According to an exemplary embodiment of thepresent invention, the method of communication between the user wearableportable communication device and the remote monitoring center starts atstep 302.

From step 302, the flow diagram 300 continues with step 304 whichdescribes about a portable communication device receiving multiplephysiological parameters from the multiple physiological data collectingdevices. The multiple physiological parameters preferably includes butnot limited to a heart rate, a pulse rate, a body temperature, a bodyfat and weight, a blood sugar, a breath rate, other medical data and thelike. The multiple physiological data collecting devices includes achest belt, a blood pressure monitor, a body fat and weight scale, ablood sugar monitor and the like. The portable communication devicereceives the multiple physiological parameters from the multiplephysiological data collecting devices by utilizing a short rangecommunication network. The short range communication network preferablyincludes but not limited to a bluetooth network, a zigbee network andthe like.

From step 304, the flow diagram 300 continues with step 306 whichdescribes about transmitting the multiple collected physiologicalparameters to a remote monitoring center through a long rangecommunication network. The long range communication network preferablyincludes but not limited to a global system for mobile communications(GSM), a general packet radio service (GPRS), a wifi network and thelike. The portable communication device further utilizes the globalpositioning system (GSM) for tracking the current location of the user.

From step 306, the flow diagram 300 continues with step 308 whichdescribes about the remote monitoring center periodically receiving thecollected physiological parameters from the portable communicationdevice. The remote monitoring center receives the multiple physiologicalparameters during regular intervals for continuously monitoring theuser.

From step 308, the flow diagram 300 continues with step 310 whichdescribes about storing the received multiple physiological parametersIn the secure data bank. The data bank stored the multiple physiologicalparameters for maintaining a history of the medical records associatedwith the user while providing treatment to the user.

From step 310, the flow diagram 300 continues with step 312 whichdescribes about analyzing the stored physiological parameters of theuser. Analyzing the multiple physiological parameters by comparing themultiple physiological parameters stored in the secured databank enablesthe multiple health care providers to provide an effective medicalassistance.

From step 312, the flow diagram 300 continues with step 314 whichdescribes about transmitting a feed back to die portable communicationdevice. The multiple health, care providers present over die remotemonitoring center transmits the feed back including medical assistanceto the user based on the analyzed physiological parameters.

Finally, the flow diagram 300 depicting the method of communicationbetween the user wearable portable communication device and the remotemonitoring center ends at step 316.

Referring to FIG. 4 is a diagram 400 illustrating an overview ofmultiple applications associated with a user wearable portablecommunication device. According to an exemplary embodiment of thepresent invention, the overview of the multiple applications associatedwith the user wearable portable communication device 402 depicts aglobal positioning system (GPS) 404, an home automation 406, multiplereminders 408, a fetal dopplar 410, multiple user controllable switches412, a provision 414 for enabling a video conference, a holed provision416, a universal serial bus provision (USB) 418, a transceiver 420, amicro phone 422, a display module 424, a subscriber identity module(SIM) 426, a fail detection module 428, a motion detection module 430.

According to an exemplary embodiment of the present invention, theglobal positioning system (GSM) 404 in conjunction with a locationtracking module of the portable communication device is used to trackthe current location of the user for providing emergency medicalassistance. The home automation module 406 of the portable communicationdevice is used to remotely operate multiple electronic devices locatedat home. The multiple electronic devices preferably Includes but notlimited to a air conditioner, a cooler, a fridge, a bulb, a fan, a wovenand the like. The multiple reminders 408 enable the user to take themedication at proper time. The acknowledgement acceptance of themultiple reminders prevents the repetition of the alarms. The fetaldoppler 410 communicatively coupled with the portable communicationdevice enables the user monitor the physiological parameters of thechild and transmits the measured parameters to the remote monitoringcenter.

In accordance with an exemplary embodiment of the present invention, themultiple user controllable switches 412 facilitates the user toestablish a voice based communicative interaction with the multiplehealth care providers present over the remote monitoring center. Theuser controllable switches 412 along with the microphone 422 are usedfor establishing the yoke based communication and also the multiplepreprogrammed contact numbers are utilized for communicating with themultiple health care providers present over the remote monitoringcenter. The provision 414 enables the user to establish a videoconference with the multiple health care providers present over theremote monitoring center.

According to a non limiting exemplary embodiment of the presentinvention, the holed provision 416 facilitates the user to wear theportable communication device as a pendent and the universal serial busprovision 418 of the portable communication device receives the multiplephysiological parameters from the multiple physiological data collectingdevices. The transceiver 420 enables the transmission and reception ofthe data between the portable communication device and the remotemonitoring center. The display 424 module of the portable communicationdevice displays the multiple physiological parameters of the user, timeand date. Further the subscriber identity module (SIM) 426 facilitatesthe user to communicate with the multiple health acre providers and alsoto transmit the data to the remote monitoring center alter receivingIrons the multiple physiological data collecting devices of the user.

In accordance with an exemplary embodiment of the present invention, thefall detecting module in conjunction with the accelerometer recognizesthe placement of the portable communication device and the motiondetecting module 430 identifies the movement of the portablecommunication device for reducing the power consumption.

While specific embodiments of the invention have been shown anddescribed in detail to illustrate the inventive principles. It will beunderstood that the invention may be embodied otherwise withoutdeparting from such principles.

What is claimed is:
 1. A user wearable portable communication device forcollecting and transmitting a plurality of physiological parameters to aremote monitoring center, comprising: a provision for enabling a user toestablish a video conference with a plurality of health care providerspresent over the remote monitoring center; at least one accelerometerfor fall detection; at least one physiological data collecting devicethat collects and transmits data to the plurality of health careproviders present over the remote monitoring center, the at least onephysiological data collecting device receives the physiologicalparameters over a short range communication network from a plurality ofphysiological data collecting devices; a provision to receive anacknowledgment corresponding to a plurality of reminders for preventingthe repetition of alarms; a provision to configure a plurality ofpreprogrammed contact numbers for enabling the user to establish acommunication with the plurality of health care providers; and at leastone subscriber identity module for enabling the user perform: a step ofestablishing a communication between the portable communication deviceand the remote monitoring center; and a step of data transmissionbetween the portable communication device and the remote monitoringcenter employing a set of communication protocols; a secured datarepository that stores data from the user wearable portablecommunication device; wherein the remote monitoring center provides ananalysis of the physiological data received from the user wearableportable communication device; and a transmission of feedback to thepatient over a communication network based on the physiological datareceived; wherein the user wearable portable communication device isoperable to remotely operate a plurality of electronic devices; whereinthe communication with the remote monitoring center is enabled through along range communication network comprising at least one of: a globalsystem for mobile communications; a general packet radio service; and awifi network.
 2. The portable communication device of claim 1 furthercomprising a location tracking module for tracking a current location ofthe user through at least one of: an assisted global positioning system;and a global positioning system.
 3. The portable device of claim 1,further comprising: a home automation module with remote operationcapabilities for a plurality of electronics devices using at least one ashort range communication network and a long range communicationnetwork.
 4. The portable communication device of claim 1, wherein thedevice initiates the communication to the preprogrammed contact numberswhen the fall is detected.
 5. The portable device of claim 1, whereinthe set of communication protocols comprising at least one of atransmission control protocol/internet protocol, a hyper text transferprotocol, an HTTPS, and an SSL.
 6. The portable communication device ofclaim 1, wherein the short range communication network comprising atleast one of: a bluetooth network, a zigbee network, a near fieldcommunication, and a radio frequency communication.
 7. The portablecommunication device of claim 1 further comprising a universal serialbus provision for receiving the physiological parameters from theplurality of physiological data collecting devices.
 8. The portablecommunication device of claim 1, wherein the physiological datacollecting devices include at least one of a blood pressure monitor, anECG/EKG, a Blood Sugar Monitor, a heart rate sensor, a chest belt, aphysiological data collection patch, a invasive medical device, and anoninvasive medical device.
 9. The portable communication device ofclaim 1, wherein the at least one provision for enabling the user toestablish a data transmission with the plurality of health careproviders comprising at least one of: a keyboard; a microphone; awebcam; and a video camera.
 10. The portable communication device ofclaim 1, wherein the secured data repository is a data bank.
 11. Theportable communication device of claim 1, wherein the a datatransmission with a plurality of health care providers present over theremote monitoring center is at least one of a video conference, an audioconference, or a text-based conference.
 12. A method adapted forcollecting and transmitting a plurality of physiological parameters froma user wearable portable communication device to a remote monitoringcenter, comprising: facilitating communication between a user and aplurality of health care providers present over the remote monitoringcenter by using at least one of a keyboard, a microphone, a webcam and avideo camera; detecting a placement of the portable communication deviceby using at least one accelerometer; remotely operating a plurality ofelectronic devices from the user wearable portable communication device;monitoring and transmitting at least one physiological parameter byutilizing at least one physiological data collecting devicecommunicatively coupled to the user wearable portable communicationdevice, the at least one physiological data collecting device receivesthe physiological parameters over a short range communication networkfrom a plurality of physiological data collecting devices; enabling theuser to establish a communication with the plurality of health careproviders by utilizing a plurality of preprogrammed contact numbers;receiving an acknowledgment corresponding to a plurality of remindersfor preventing the repetition of alarms; and establishing acommunication between the portable communication device and the remotemonitoring center through at least one subscriber identity module forenabling at least one of: a voice based communication; and a datatransmission; wherein data from the user wearable portable communicationdevice is stored in a secured data bank; wherein the communication withthe remote monitoring center is enabled through a long rangecommunication network comprising at least one of: a global system formobile communications; a cellular network; a WiMax; a global system formobile communications; a general packet radio service; and a wifinetwork.
 13. The method of claim 12 further comprising: employing a setof communication protocols for enabling a communication between theplurality of physiological data collecting devices and the portablecommunication device.
 14. The method of claim 12, wherein the pluralityof preprogrammed contact numbers enable the user to establish acommunication with the plurality of health care providers present overthe remote monitoring center.